Consequências hidrológicas da mudança de uso da terra de floresta para pastagem na região da floresta tropical pluvial Atlântica

Q3 Environmental Science

Revista Ambiente e Agua Pub Date : 2012-12-26 DOI:10.4136/AMBI-AGUA.927

L. Salemi, Juliano Daniel Groppo, R. Trevisan, Gustavo Bicci Seghesi, J. M. Moraes, Silvio Ferraz, L. A. Martinelli

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引用次数: 10

Abstract

The Atlantic rain forest is the most endangered ecosystem in Brazil. Its degradation has started since 1500 when the European settlers arrived. Despite of all land use changes that have occurred, hydrological studies carried out in this biome have been limited to hydrological functioning of rain forests only. In order to understand the hydrological consequences of land-use change from forest to pasture, we described the hydrological functioning of a pasture catchment that was previously covered by tropical rain forest. To reach this goal we measured the precipitation, soil matric potential, discharge, surface runoff and water table levels during one year. The results indicated that there is a decrease in surface soil saturated hydraulic conductivity. However, as low intensity rainfall prevails, the lower water conductivity does not necessarily leads to a substantially higher surface runoff generation. Regarding soil water matric potential, the pasture presented higher moisture levels than forest during the dry season. This increase in soil moisture implies in higher water table recharge that, in turn, explain the higher runoff ratio. This way, land-use change conversion from forest to pasture implies a higher annual streamflow in pasture catchments. Nonetheless, this increase in runoff due to forest conversion to pasture implies in losses of biological diversity as well as lower soil protection.

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大西洋热带雨林地区从森林到牧场土地利用变化的水文后果

大西洋雨林是巴西最濒危的生态系统。自1500年欧洲移民抵达以来，它的退化就开始了。尽管发生了所有土地利用变化，但在该生物群系中进行的水文研究仅限于雨林的水文功能。为了了解从森林到牧场的土地利用变化的水文后果，我们描述了以前被热带雨林覆盖的牧场集水区的水文功能。为了达到这个目标，我们测量了一年内的降水量、土壤基质势、流量、地表径流和地下水位。结果表明:土壤表层饱和导水率呈下降趋势;然而，由于普遍存在低强度降雨，较低的水电导率并不一定会导致地表径流产生的显著增加。旱季牧草土壤水分基质势高于森林;土壤水分的增加意味着更高的地下水位补给，这反过来又解释了更高的径流比。这样，从森林到牧场的土地利用变化意味着牧场集水区的年流量更高。然而，由于森林转变为牧场而导致的径流增加意味着生物多样性的丧失以及土壤保护的降低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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